// graph-tool -- a general graph modification and manipulation thingy
//
// Copyright (C) 2006-2020 Tiago de Paula Peixoto <tiago@skewed.de>
//
// This program is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License as published by the Free
// Software Foundation; either version 3 of the License, or (at your option) any
// later version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
// FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
// details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.

#include "graph.hh"
#include "graph_filtering.hh"
#include "graph_properties.hh"
#include "graph_selectors.hh"

#include <boost/mpl/for_each.hpp>
#include <boost/python/extract.hpp>

using namespace std;
using namespace boost;
using namespace graph_tool;

template <class GraphSrc, class GraphTgt, class IndexMap, class SrcIndexMap,
          class TgtIndexMap>
struct copy_vertex_property_dispatch
{
    copy_vertex_property_dispatch(const GraphSrc& src, const GraphTgt& tgt,
                                  boost::any& prop_src, boost::any& prop_tgt,
                                  IndexMap& index_map,
                                  SrcIndexMap& src_vertex_index,
                                  TgtIndexMap& tgt_vertex_index,
                                  bool& found)
        : src(src), tgt(tgt), prop_src(prop_src),
          prop_tgt(prop_tgt), index_map(index_map),
          src_vertex_index(src_vertex_index),
          tgt_vertex_index(tgt_vertex_index), found(found) {}


    const GraphSrc& src;
    const GraphTgt& tgt;
    boost::any& prop_src;
    boost::any& prop_tgt;
    IndexMap& index_map;
    SrcIndexMap& src_vertex_index;
    TgtIndexMap& tgt_vertex_index;
    bool& found;

    template <class PropertyMap>
    void operator()(PropertyMap) const
    {
        PropertyMap* psrc = any_cast<PropertyMap>(&prop_src);
        if (psrc == NULL)
            return;
        if (prop_tgt.empty())
            prop_tgt = PropertyMap(tgt_vertex_index);
        PropertyMap* ptgt = any_cast<PropertyMap>(&prop_tgt);
        if (ptgt == NULL)
            return;
        found = true;

        auto p_src = psrc->get_unchecked(num_vertices(src));
        auto p_tgt = ptgt->get_unchecked(num_vertices(tgt));

        parallel_vertex_loop
            (src,
             [&](auto v)
             {
                 auto new_v = vertex(index_map[v], tgt);
                 p_tgt[new_v] = p_src[v];
             });
    }
};

template <class PropertyMaps, class GraphSrc, class GraphTgt,
          class IndexMap, class SrcIndexMap, class TgtIndexMap>
void copy_vertex_property(boost::any& prop_src, boost::any& prop_tgt,
                          const GraphSrc& src, const GraphTgt& tgt,
                          IndexMap& index_map, SrcIndexMap& src_vertex_index,
                          TgtIndexMap& tgt_vertex_index)
{
    bool found = false;
    boost::mpl::for_each<PropertyMaps>(copy_vertex_property_dispatch<GraphSrc, GraphTgt,
                                                                     IndexMap, SrcIndexMap,
                                                                     TgtIndexMap>
            (src, tgt, prop_src, prop_tgt, index_map, src_vertex_index,
             tgt_vertex_index, found));
    if (!found)
        throw ValueException("Cannot find property map type.");
}


template <class GraphSrc, class GraphTgt, class IndexMap, class SrcIndexMap>
struct copy_edge_property_dispatch
{
    copy_edge_property_dispatch(const GraphSrc& src, const GraphTgt& tgt,
                                boost::any& prop_src, boost::any& prop_tgt,
                                IndexMap& index_map,
                                SrcIndexMap& src_edge_index,
                                size_t max_src_edge_index,
                                bool& found)
        : src(src), tgt(tgt), prop_src(prop_src),
          prop_tgt(prop_tgt), index_map(index_map),
          src_edge_index(src_edge_index),
          max_src_edge_index(max_src_edge_index), found(found) {}


    const GraphSrc& src;
    const GraphTgt& tgt;
    boost::any& prop_src;
    boost::any& prop_tgt;
    IndexMap& index_map;
    SrcIndexMap& src_edge_index;
    size_t max_src_edge_index;
    bool& found;

    template <class PropertyMap>
    void operator()(PropertyMap) const
    {
        PropertyMap* psrc = any_cast<PropertyMap>(&prop_src);
        if (psrc == NULL)
            return;
        if (prop_tgt.empty())
            prop_tgt = PropertyMap(get(edge_index_t(), tgt));
        PropertyMap* ptgt = any_cast<PropertyMap>(&prop_tgt);
        if (ptgt == NULL)
            return;
        found = true;

        auto p_src = psrc->get_unchecked(max_src_edge_index + 1);
        auto p_tgt = ptgt->get_unchecked(num_edges(tgt));

        parallel_vertex_loop
            (src,
             [&](auto v)
             {
                 for (auto e : out_edges_range(v, src))
                 {
                     auto s = source(e, src);
                     auto t = target(e, src);
                     if (!is_directed_::apply<GraphSrc>::type::value && s > t)
                         continue;
                     size_t ei = src_edge_index[e];
                     const auto& new_e = index_map[ei];
                     p_tgt[new_e] = p_src[e];
                 }
             });
    }
};

template <class PropertyMaps, class GraphSrc, class GraphTgt,
          class IndexMap, class SrcIndexMap>
void copy_edge_property(boost::any& prop_src, boost::any& prop_tgt,
                        const GraphSrc& src, const GraphTgt& tgt,
                        IndexMap& index_map, SrcIndexMap& src_vertex_index,
                        size_t max_src_edge_index)
{
    bool found = false;
    boost::mpl::for_each<PropertyMaps>(copy_edge_property_dispatch<GraphSrc, GraphTgt,
                                                                   IndexMap, SrcIndexMap>
            (src, tgt, prop_src, prop_tgt, index_map, src_vertex_index,
             max_src_edge_index, found));
    if (!found)
        throw ValueException("Cannot find property map type.");
}

struct do_graph_copy
{

    do_graph_copy(size_t max_src_edge_index)
        : max_src_edge_index(max_src_edge_index) {}
    size_t max_src_edge_index;

    template <class GraphTgt, class GraphSrc, class TgtVertexIndexMap,
              class SrcVertexIndexMap,  class TgtEdgeIndexMap,
              class SrcEdgeIndexMap, class OrderMap>
    void operator()(const GraphSrc& src, GraphTgt& tgt,
                    TgtVertexIndexMap src_vertex_index,
                    SrcVertexIndexMap tgt_vertex_index,
                    TgtEdgeIndexMap,
                    SrcEdgeIndexMap src_edge_index,
                    OrderMap vertex_order,
                    vector<pair<std::reference_wrapper<boost::any>,std::reference_wrapper<boost::any>>>& vprops,
                    vector<pair<std::reference_wrapper<boost::any>,std::reference_wrapper<boost::any>>>& eprops) const
    {
        vector<size_t> vs;
        for (auto v : vertices_range(src))
            vs.push_back(v);
        std::sort(vs.begin(), vs.end(),
                  [&](auto u, auto v)
                  {
                      return get(vertex_order, u) < get(vertex_order, v);
                  });
        vector<size_t> pos(num_vertices(src));
        for (size_t i = 0; i < vs.size(); ++i)
            pos[vs[i]] = i;

        vector<size_t> index_map(num_vertices(src));
        for (auto v : vertices_range(src))
        {
            if (src_vertex_index[v] >= index_map.size())
                index_map.resize(src_vertex_index[v] + 1);
            auto new_v = pos[v];
            while (size_t(new_v) >= num_vertices(tgt))
                add_vertex(tgt);
            index_map[src_vertex_index[v]] = tgt_vertex_index[new_v];
        }

        for (size_t i = 0; i < vprops.size(); ++i)
            copy_vertex_property<writable_vertex_properties>
                    (vprops[i].first.get(), vprops[i].second.get(),
                     src, tgt, index_map, src_vertex_index, tgt_vertex_index);


        vector<typename graph_traits<GraphTgt>::edge_descriptor> edge_map(num_edges(src));
        for (auto e : edges_range(src))
        {
            size_t s = index_map[src_vertex_index[source(e, src)]];
            size_t t = index_map[src_vertex_index[target(e, src)]];
            auto new_e = add_edge(vertex(s,tgt), vertex(t,tgt), tgt).first;

            size_t ei = src_edge_index[e];
            if (ei >= edge_map.size())
                edge_map.resize(ei + 1);

            edge_map[ei] = new_e;
        }

        for (size_t i = 0; i < eprops.size(); ++i)
            copy_edge_property<writable_edge_properties>
                (eprops[i].first.get(), eprops[i].second.get(),
                 src, tgt, edge_map, src_edge_index, max_src_edge_index);

    }
};

// copy constructor
GraphInterface::GraphInterface(const GraphInterface& gi, bool keep_ref,
                               python::object ovprops, python::object oeprops,
                               python::object vorder)
    :_mg(keep_ref ? gi._mg : std::make_shared<multigraph_t>()),
     _vertex_index(get(vertex_index, *_mg)),
     _edge_index(get(edge_index_t(), *_mg)),
     _reversed(gi._reversed),
     _directed(gi._directed),
     _vertex_filter_map(_vertex_index),
     _vertex_filter_invert(false),
     _vertex_filter_active(false),
     _edge_filter_map(_edge_index),
     _edge_filter_invert(false),
     _edge_filter_active(false)
{
    if (keep_ref)
        return;

    if (vorder == python::object())
    {
        // simple copying
        *_mg = *gi._mg;
        return;
    }

    vector<pair<std::reference_wrapper<boost::any>,std::reference_wrapper<boost::any>>> vprops;
    for (int i = 0; i < python::len(ovprops); ++i)
    {
        vprops.push_back(make_pair(std::ref(python::extract<boost::any&>(ovprops[i][0])()),
                                   std::ref(python::extract<boost::any&>(ovprops[i][1])())));
    }
    vector<pair<std::reference_wrapper<boost::any>,std::reference_wrapper<boost::any>>> eprops;
    for (int i = 0; i < python::len(oeprops); ++i)
    {
        eprops.push_back(make_pair(std::ref(python::extract<boost::any&>(oeprops[i][0])()),
                                   std::ref(python::extract<boost::any&>(oeprops[i][1])())));
    }

    boost::any avorder = python::extract<boost::any>(vorder)();
    run_action<>()
        (const_cast<GraphInterface&>(gi),
         [&](auto&& graph, auto&& a2)
         {
             return do_graph_copy(gi._mg->get_edge_index_range())(
                 std::forward<decltype(graph)>(graph), *_mg, gi._vertex_index,
                 _vertex_index, gi._edge_index, _edge_index,
                 std::forward<decltype(a2)>(a2), vprops, eprops);
         },
         vertex_scalar_properties())(avorder);
    // filters will be copied in python
}
